Surface composition and catalytic activity of an iron mining residue for simultaneous degradation of sulfonamide antibiotics
Iron mining residue was evaluated as a potential catalyst for heterogeneous Fenton/photo-Fenton degradation of sulfonamide antibiotics. The residue contained 25% Fe 2 O 3 and 8% CeO 2 , as determined by X-ray fluorescence spectroscopy, as well as other minor phases such as P 2 O 5 , SiO 2 , and TiO...
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| Published in | Environmental science and pollution research international Vol. 27; no. 2; pp. 1710 - 1720 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Berlin/Heidelberg
Springer Berlin Heidelberg
2020
Springer Nature B.V |
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| Abstract | Iron mining residue was evaluated as a potential catalyst for heterogeneous Fenton/photo-Fenton degradation of sulfonamide antibiotics. The residue contained 25% Fe
2
O
3
and 8% CeO
2
, as determined by X-ray fluorescence spectroscopy, as well as other minor phases such as P
2
O
5
, SiO
2
, and TiO
2
. X-ray photoelectron spectroscopy analysis revealed a lower content of iron oxides on the surface, which restricted interaction of the residue with H
2
O
2
. Despite this limitation and the relatively low specific surface area (26 m
2
g
-1
) of the crude iron mining residue (without any pretreatment), the material presented high catalytic activity for Fenton degradation of sulfonamide antibiotics. The degradation was strongly dependent on the initial pH, showing the highest efficiency at pH 2.5. For this condition, a concentration of sulfathiazole below the detection limit was obtained within 30 min, under black light irradiation and using 0.3 g L
-1
residue, with low H
2
O
2
consumption (0.2 mmol L
-1
). The residue also provided highly efficient sulfathiazole degradation in the dark, with the concentration of the antibiotic decreasing to an undetectable level after 45 min. Simultaneous degradation of two sulfonamide antibiotics revealed higher recalcitrance of sulfamethazine, compared to sulfathiazole, but the levels of both antibiotics decreased to below the detection limit after 45 min. The residue was very stable, since no significant concentration of soluble iron was detected after the degradation process. Furthermore, high catalytic activity was maintained during up to five cycles, showing the potential of this material for use as a low-cost and environmentally compliant catalyst in Fenton processes. |
|---|---|
| AbstractList | Iron mining residue was evaluated as a potential catalyst for heterogeneous Fenton/photo-Fenton degradation of sulfonamide antibiotics. The residue contained 25% Fe
2
O
3
and 8% CeO
2
, as determined by X-ray fluorescence spectroscopy, as well as other minor phases such as P
2
O
5
, SiO
2
, and TiO
2
. X-ray photoelectron spectroscopy analysis revealed a lower content of iron oxides on the surface, which restricted interaction of the residue with H
2
O
2
. Despite this limitation and the relatively low specific surface area (26 m
2
g
-1
) of the crude iron mining residue (without any pretreatment), the material presented high catalytic activity for Fenton degradation of sulfonamide antibiotics. The degradation was strongly dependent on the initial pH, showing the highest efficiency at pH 2.5. For this condition, a concentration of sulfathiazole below the detection limit was obtained within 30 min, under black light irradiation and using 0.3 g L
-1
residue, with low H
2
O
2
consumption (0.2 mmol L
-1
). The residue also provided highly efficient sulfathiazole degradation in the dark, with the concentration of the antibiotic decreasing to an undetectable level after 45 min. Simultaneous degradation of two sulfonamide antibiotics revealed higher recalcitrance of sulfamethazine, compared to sulfathiazole, but the levels of both antibiotics decreased to below the detection limit after 45 min. The residue was very stable, since no significant concentration of soluble iron was detected after the degradation process. Furthermore, high catalytic activity was maintained during up to five cycles, showing the potential of this material for use as a low-cost and environmentally compliant catalyst in Fenton processes. Iron mining residue was evaluated as a potential catalyst for heterogeneous Fenton/photo-Fenton degradation of sulfonamide antibiotics. The residue contained 25% Fe O and 8% CeO , as determined by X-ray fluorescence spectroscopy, as well as other minor phases such as P O , SiO , and TiO . X-ray photoelectron spectroscopy analysis revealed a lower content of iron oxides on the surface, which restricted interaction of the residue with H O . Despite this limitation and the relatively low specific surface area (26 m g ) of the crude iron mining residue (without any pretreatment), the material presented high catalytic activity for Fenton degradation of sulfonamide antibiotics. The degradation was strongly dependent on the initial pH, showing the highest efficiency at pH 2.5. For this condition, a concentration of sulfathiazole below the detection limit was obtained within 30 min, under black light irradiation and using 0.3 g L residue, with low H O consumption (0.2 mmol L ). The residue also provided highly efficient sulfathiazole degradation in the dark, with the concentration of the antibiotic decreasing to an undetectable level after 45 min. Simultaneous degradation of two sulfonamide antibiotics revealed higher recalcitrance of sulfamethazine, compared to sulfathiazole, but the levels of both antibiotics decreased to below the detection limit after 45 min. The residue was very stable, since no significant concentration of soluble iron was detected after the degradation process. Furthermore, high catalytic activity was maintained during up to five cycles, showing the potential of this material for use as a low-cost and environmentally compliant catalyst in Fenton processes. Iron mining residue was evaluated as a potential catalyst for heterogeneous Fenton/photo-Fenton degradation of sulfonamide antibiotics. The residue contained 25% Fe2O3 and 8% CeO2, as determined by X-ray fluorescence spectroscopy, as well as other minor phases such as P2O5, SiO2, and TiO2. X-ray photoelectron spectroscopy analysis revealed a lower content of iron oxides on the surface, which restricted interaction of the residue with H2O2. Despite this limitation and the relatively low specific surface area (26 m2 g-1) of the crude iron mining residue (without any pretreatment), the material presented high catalytic activity for Fenton degradation of sulfonamide antibiotics. The degradation was strongly dependent on the initial pH, showing the highest efficiency at pH 2.5. For this condition, a concentration of sulfathiazole below the detection limit was obtained within 30 min, under black light irradiation and using 0.3 g L-1 residue, with low H2O2 consumption (0.2 mmol L-1). The residue also provided highly efficient sulfathiazole degradation in the dark, with the concentration of the antibiotic decreasing to an undetectable level after 45 min. Simultaneous degradation of two sulfonamide antibiotics revealed higher recalcitrance of sulfamethazine, compared to sulfathiazole, but the levels of both antibiotics decreased to below the detection limit after 45 min. The residue was very stable, since no significant concentration of soluble iron was detected after the degradation process. Furthermore, high catalytic activity was maintained during up to five cycles, showing the potential of this material for use as a low-cost and environmentally compliant catalyst in Fenton processes. |
| Author | Ayala-Durán, Saidy C. Hammer, Peter Pupo Nogueira, Raquel F. |
| Author_xml | – sequence: 1 givenname: Saidy C. surname: Ayala-Durán fullname: Ayala-Durán, Saidy C. organization: Institute of Chemistry, São Paulo State University (UNESP), National Institute for Alternative Technologies of Detection, Toxicological Evaluation and Removal of Micropollutants and Radioactives (INCT-DATREM), São Paulo State University (UNESP) – sequence: 2 givenname: Peter surname: Hammer fullname: Hammer, Peter organization: Institute of Chemistry, São Paulo State University (UNESP) – sequence: 3 givenname: Raquel F. orcidid: 0000-0003-1237-4571 surname: Pupo Nogueira fullname: Pupo Nogueira, Raquel F. email: raquel.pupo@unesp.br organization: Institute of Chemistry, São Paulo State University (UNESP), National Institute for Alternative Technologies of Detection, Toxicological Evaluation and Removal of Micropollutants and Radioactives (INCT-DATREM), São Paulo State University (UNESP) |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/31749013$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1007_s11356_024_32513_9 crossref_primary_10_1016_j_chemosphere_2022_135665 crossref_primary_10_1080_10934529_2019_1640579 crossref_primary_10_1016_j_mtcomm_2023_107598 crossref_primary_10_3390_catal13081189 crossref_primary_10_1016_j_cej_2023_143380 crossref_primary_10_1016_j_jece_2023_111844 crossref_primary_10_1016_j_jphotochem_2022_114155 |
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| Copyright | Springer-Verlag GmbH Germany, part of Springer Nature 2019 Environmental Science and Pollution Research is a copyright of Springer, (2019). All Rights Reserved. |
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| Keywords | Photo-Fenton Heterogeneous Sulfathiazole Sulfamethazine Mining residues |
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| Title | Surface composition and catalytic activity of an iron mining residue for simultaneous degradation of sulfonamide antibiotics |
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